摘要
随着5G技术的迅速发展,超密集网络(Ultra-Dense Network,UDN)已成为实现高密度数据传输和高质量通信服务的关键技术之一。5G室分系统,即5G室内分布系统,利用小型基站实现室内外无缝覆盖,为用户提供更加均匀和高速的数据服务。本文探讨了5G室分系统中超密集网络架构的资源分配方案,分析了动态频谱分配、机器学习算法、干扰协调和动态资源调度算法的优化设计策略,旨在提高频谱效率、优化能源消耗,并平衡用户负载,以支持未来网络高效、可持续的运行。
With the rapid development of 5G technology,ultra-dense network has become one of the key technologies to achieve high-density data transmission and high-quality communication services.The 5G room sub-system,namely the 5G indoor distribution system,uses small base stations to achieve seamless indoor and outdoor coverage,providing users with more uniform and high-speed data services.This paper discusses the 5G room subsystem in super dense network architecture of resource allocation scheme,analyzes the dynamic spectrum allocation,machine learning algorithm,interference coordination and dynamic resource scheduling algorithm optimization design strategy,aims to improve the spectrum efficiency,optimize energy consumption,and balance the user load,to support the future network efficient and sustainable operation.
作者
植中坚
ZHI Zhongjian(Guangzhou Jianyuan Communication Equipment Co.,Ltd.,Guangzhou Guangdong 510000,China)
出处
《信息与电脑》
2024年第20期132-134,共3页
Information & Computer
关键词
5G室分系统
超密集
网络架构
资源分配
5G room subsystem
ultra-dense
network architecture
resource allocation
